A flute positioner is provided for positioning a fastener in a tool barrel, and includes a body, a throughbore extending through the body, and at least one holding member extending into the throughbore. One or more extensions may extend radially outward from the body.
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7. A flute positioner for positioning a fastener in a tool barrel comprising:
a body having a substantially cylindrical sidewall and a major axis;
a plurality of extensions extending radially outward from said sidewall;
a throughbore extending through said body and along the major axis of said body; and,
from three to six holding members extending radially into said throughbore, each having a base adjacent to said sidewall that extends for about ⅛ to about ¼ of the circumference of said sidewall and being at least about twice the width of said extensions, each being tapered from said base to a concave engaging surface distal from said base, said holding members spaced equidistantly about a circumference of said cylindrical sidewall and staggered with said plurality of extensions, said holding members configured for causing regions of said sidewall that are proximate to said holding members to bulge outward when they engage a fastener, while regions of said sidewall that are proximate to said fins do not substantially bulge outward.
1. A flute positioner for positioning a fastener in the barrel of a tool comprising:
a generally cylindrical sidewall having a thickness and a perimeter;
a plurality of flexible fins extending radially outward from said sidewall by a first distance, each of said flexible fins having a width in the direction of the sidewall perimeter;
a throughbore defined by said cylindrical sidewall; and,
a plurality of holding members extending from said sidewall radially inward into said throughbore by a second distance that is greater than said first distance, each of said holding members having a width in the direction of said sidewall perimeter that is at least twice as large as said flexible fin width, each of said holding members being tapered from a base adjacent to said sidewall to a distal concave engaging surface, each of said holding members configured to cause at least a region of said sidewall to bulge outward and into engagement with the tool barrel when said holding members engage a fastener and before a driving force is exerted onto the fastener from the tool.
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16. A flute positioner as defined by
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The present invention is related to fastener positioners and holders.
Fasteners such as nails, screws, bolts and the like are well known in the art, and may be used in a variety of applications, including for attaching brackets and other items to a substrate. One exemplary fastener is a nail or pin useful for insertion into a substrate such as a wall, ceiling, or other surface. A hammer or an automated driving tool such as a pneumatic or powder-actuated tool may be used to drive the nail.
In such operation, the angle of incidence of the fastener into the underlying substrate can be important to the holding power of the fastener. Often, it is desired to achieve an insertion angle substantially close to 90°. To accomplish this, the fastener should be generally transverse to the substrate surface when it receives a driving force from a tool. If the driving tool includes a barrel for impacting the fastener with the driving force, it may also be desirable to insert the fastener into the barrel and have it held therein. The driving tool can then be located at a desired location for driving the fastener into the substrate. When this is accomplished, “one-handed” operation of the tool may be practiced wherein an operator is not required to hold the fastener in place for operation on by the tool.
It is known to use a holder for holding the fastener head in the tool barrel. For example, a thin ring with outwardly extending pliable fingers may be positioned on the fastener shaft. The fingers of the ring engage the wall of a tool barrel when the fastener is inserted therein to help center the fastener within the barrel.
Known positioner rings fail to solve several problems in the art, however. For example, known positioner ring fingers may fail to engage the tool barrel with satisfactory firmness or friction, with the result that insufficient guidance is provided when the fastener is driven into a substrate. An undesirable variance of angle of insertion can result. This can lead to diminished fastener holding power, to bent or deformed fasteners, or even to fastener failure. Also, different diameter rings may be needed for fasteners of different diameters, and different sized fingers are required for use with different diameter tool barrels. This results in a number of different positioner rings being required, lowering the efficiency of their manufacture. Accordingly, needs and problems remain unresolved in the art.
A flute positioner is provided for positioning a fastener in a tool barrel. An exemplary flute positioner includes a body, a throughbore extending through the body, and at least one holding member extending into the throughbore.
Turning now to the drawings, an exemplary flute or flute positioner is shown generally at 2 in
As shown by
As illustrated by
Three holding members 12 are provided in the exemplary flute positioner 2, with from three to six holding members a preferred number. The exemplary holding members 12 are preferably spaced equidistantly about the perimeter of the throughbore 10. As shown by
Note also that the regions 22 show little or no outward bulge. It is contemplated that in other invention embodiments noticeable bulge will occur in these regions 22 depending, for instance, on the diameter of the fastener shaft 15 engaged. It is preferred that the amount of outward bulge in the regions 22 be less than that of the regions 20. Finally, it will be appreciated that in some embodiments of the invention no fins 14 are provided, and that engagement with the barrel B will occur only at the bulging sidewall regions 20.
Achieving desirable engagement between the flute 2 and the barrel B depends to an extent on the firmness of engagement between the bulging sidewall regions 20 and the barrel. The firmness of engagement partially depends on the amount of sidewall 8 that deforms when the holding members 12 engage the fastener shaft 15. A balance must be achieved between too much deformation and too little, since neither too firm nor too loose of an engagement with the barrel B is desirable. It has been discovered that various elements of the flute positioner 2 interact with one another to determine the amount of sidewall 8 deformation that occurs, and that a beneficial amount of deformation can be achieved through choice of element configuration, placement, materials of construction and dimensions.
For example, the amount of sidewall 8 deformation that creates the bulging regions 20 can be partially controlled through selection of the thickness and hardness of sidewall 8, as well as the size, placement, and hardness of the holding members 12. Those knowledgeable in the art will appreciate that these factors may all interrelate with one another, and that a variety of particular combinations will prove to be suitable.
Referring again to
In the exemplary flute 2 with its generally cylindrical sidewall 8, a preferred arc length for the arc HMD1 is between about 45° and about 90°. As best illustrated by
It is also preferred that the fins 14 extend along the circumference of the sidewall 8 for a portion of the sidewall perimeter that is illustrated in
It has also been discovered that maintaining a relationship between the thickness of the sidewall 8, illustrated in
In summary, the following dimensional relationships have been discovered to be useful for practice of the invention. In considering these useful ranges, it should be kept in mind that the referenced distances and thicknesses as illustrated in
It will be appreciated that particular dimensions will vary with applications. However, it is believed that values that offer useful benefits in many applications include the sidewall 8 thickness SWT being about 0.05 to about 0.1 inches, the holding member 12 distance HMD2 being about 0.05 to about 0.1 inches, and the fin 14 extension distance ED2 being about 0.05 to about 0.1 inches. These dimensions have shown acceptable deformation of the sidewall 8 when the sidewall 8, the holding members 12, and the fins 14 all have a hardness of about 80 to about 90 durometer shore A. The length of the body 6 in the direction of the axis of the cylindrical sidewall 8 may also have an effect on the relative size of the bulging sidewall regions 20. It has been discovered that a useful length in this direction for many applications is between about 0.2 and about 0.15 inches.
The configuration of the exemplary flute positioner 2 is also believed to offer benefits and advantages in that it is well suited for large-scale manufacture through a continuous extrusion process using a thermoplastic. When taking advantage of this process for manufacture of the flute 2, the sidewall 8, the holding members 12, and the fins 14 will all be integral with one another. Those knowledgeable in the art will appreciate that many different materials will be suitable for manufacture of the flute positioner 2, and may be selected based on considerations including cost, hardness, appearance, durability, and the like. It has been discovered that one beneficial thermoplastic material of construction is polyvinyl chloride.
It will be appreciated that although exemplary embodiments of the invention have been shown and discussed herein, these are exemplary only and are not exhaustive of the invention. Those knowledgeable in the art will readily recognize that many equivalents and alternatives are possible within the invention. Also, it will be appreciated that the figures presented herein are illustrative only, and that their particular dimensions and scales are not intended to limit the scope of the invention.
Ernst, Richard J., Buytaert, Donald, Davis, George Matthew, Jablonski, David W.
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Jun 10 2004 | BUYTAERT, DONALD | Illinois Tool Works Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 015378 | /0976 | |
Jun 10 2004 | DAVIS, GEORGE M | Illinois Tool Works Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 015378 | /0976 | |
Jun 11 2004 | JABLONSKI, DAVID W | Illinois Tool Works Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 015378 | /0976 | |
Jul 01 2004 | ERNST, RICHARD J | Illinois Tool Works Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 015378 | /0976 | |
Sep 30 2004 | Illinois Tool Works Inc. | (assignment on the face of the patent) | / |
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